ceramic capacitors
TRANSCRIPT
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Multilayer Ceramic Capacitor
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Multilayer Ceramic Capacitor
INTRODUCTION
MLCC(Multilayer Ceramic Capacitor) is SMD(Surface Mounted Device) type capacitor that is used
in wide ranges of capacitance. MLCC is paid more attentions than other capacitors due to the
better frequency characteristics, higher reliability, higher withstanding voltage and so on.
MLCC is made of many layers of ceramic and inner electrodes like sandwich. Pd was used for
inner electrodes. But the price of Pd was skyrocketed and Pd was replaced by the BME(Base
Metal Electrode), which reduced the total cost of MLCC.
This inner electrode is connected to outer termination for surface mounting, which is composed of
three layers, Cu or Ag layer, Ni plating layer, and SnPb or Sn plating layer. Most of MLCCs
become Pb free by the environmental issue at present.
MLCC is divided into two classes. Class I(C0G, etc) is the temperature compensating type. It has
a small TCC(Temperature Coefficient of Capacitance) and a better frequency performance.
Therefore, it is used in RF applications such as cellular phone, tuner, and so on. Class II(X7R,
X5R, Y5V, etc) is the high dielectric constant type, which is used in general electronic circuit.
Especially high capacitance MLCC is replacing other capacitors (Tantalum and Aluminum
capacitor) due to the low ESR(Equivalent Series Resistance) value.
FEATURE AND APPLICATION
Feature- Miniature Size
- Wide Capacitance and Voltage Range
- Highly Reliable Performance
- Tape & Reel for Surface Mount Assembly
- Low ESR
- High Q at High Frequencies
- Stable Temperature Dependence of Capacitance
Application
- High Frequency Circuit(Tuner, VCO, PAM etc)- General Power Supply Circuit(SMPS etc)
- DC-DC Converter
- General Electronic Circuit
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STRUCTURE
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APPEARANCE AND DIMENSION
L
BW
TW
CODE EIA CODEDIMENSION ( mm )
L W T (MAX) BW
03 0201 0.6 0.03 0.3 0.03 0.3 0.03 0.150.05
05 0402 1.0 0.05 0.5 0.05 0.5 0.05 0.2+0.15/-0.1
10 0603 1.6 0.1 0.8 0.1 0.8 0.1 0.3 0.2
21 0805 2.0 0.1 1.25 0.1 1.25 0.1 0.5+0.2/-0.3
31 1206 3.2 0.2 1.6 0.2 1.6 0.2 0.5+0.2/-0.3
32 1210 3.2 0.3 2.5 0.2 2.5 0.2 0.6 0.3
43 1812 4.5 0.4 3.2 0.3 3.2 0.3 0.8 0.3
55 2220 5.7 0.4 5.0 0.4 3.2 0.3 1.0 0.3
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PREVIOUS PART NUMBERING
Symbol EIA CodeTemperature
Coefficient(PPM/) TemperatureCharacteristics
Operation
Temperature Range
C C0G(CH) 0 30 C
-55 ~ +125
P P2H -150 60 P
R R2H -220 60 R
S S2H -330 60 ST T2H -470 60 T
U U2J -750 120 U
L S2L +350 ~ -1000 SL
CLASS (Temperature Compensation)
Temperature
Characteristicsbelow 2.0pF 2.2 ~ 3.9pF above 4.0pF above 10pF
C C0G C0G C0G C0GP - P2J P2H P2HR
- R2J R2H R2H
S - S2J S2H S2HT - T2J T2H T2HU - U2J U2J U2J
Symbol EIA CodeCapacitance Change
(C : % )Operation
Temperature Range
A X5R 15 -55 ~ +85
B X7R 15 -55 ~ +125
F Y5V +22 ~ -82 -30 ~ +85
CLASS (High Dielectric Constant)
SAMSUNG Multilayer Ceramic Capacitor
Type(Size)
Capacitance Temperature Characteristics
Nominal Capacitance
Capacitance Tolerance
Rated Voltage
Thickness Option
Packaging Type
CL 10 C 101 J B N C
CAPACITANCE TEMPERATURE CHARACTERISTICS
Temperature Characteristics
K : 250 PPM/J : 120 PPM/
H : 60 PPM/
G : 30 PPM/
3
7
8
2
6
3
4
5
2 63 4 5 7 8
1
1
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TemperatureCharacteristics
Symbol Tolerance Applicable Capacitance & Range
C0G(NPO)
or
T.C Series
B 0.1pF 0.5 ~ 3pF
C 0.25pF0.5 ~ 10pF
D 0.5pF
F 1pF 6 ~ 10pF
G 2%
E-24 Series for over 10pFJ 5%
K 10%
A(X5R)
B(X7R)
J 5%
E-12 SeriesK 10%
M 20%
F(Y5V) Z -20% ~ +80% E-6 Series
CAPACITANCE TOLERANCE
The nominal capacitance value is expressed in pico-Farad(pF) and identified by three-
digit number, first two digits represent significant figures and last digit specifies thenumber of zeros to follow. For values below 1pF, the letter "R" is used as the decimal
point and the last digit becomes significant.
example)
100 : 10 10o = 10pF
102 : 10 102 = 1000pF
020 : 2 10o = 2pF
1R5 : 1.5pF
NOMINAL CAPACITANCE
5
4
Please consult us for special tolerances.
Symbol Rated Voltage(Vdc) Symbol Rated Voltage(Vdc)
Q 6.3V D 200V
P 10V G 500V
O 16V I 1000V
A 25V J 2000V
B 50V K 3000V
C 100V
RATED VOLTAGE6
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Symbol Packaging Symbol Packaging
B Bulk F Embossed Tape, 13" Reel
P Cassette L Paper 13" Reel
C Paper Tape, 7" Reel O Paper 10" Reel
D Paper Tape, 13" Reel S Embossed Tape, 10" Reel
E Embossed Tape, 7" Reel
PACKAGING TYPE
THICKNESS OPTION
Symbol Description of the Code
N Standard thickness (please refer to standard thickness table on next page)
A Thinner than standard thickness
B Thicker than standard thickness
C Standard Thickness High Q ( Low ` D.F ` )
D Sn-100% (High-Q)
E Sn-100% (General)
Please Consult us for other termination type.
7
8
Series Capacitance Step
E- 3 1.0 2.2 4.7
E- 6 1.0 1.5 2.2 3.3 4.7 6.8
E-12 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2
E-241.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2
1.1 1.3 1.6 2.0 2.4 3.0 3.6 4.3 5.1 6.2 7.5 9.1
Standard Capacitance is " Each step 10n "
STANDARD CAPACITANCE STEP
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NEW PART NUMBERING
CL 10 C 101 J B 8 N N N C1 2 3 4 5 6 7 8 9 10 11
1 PRODUCT AB BREVIATION
Symbol Product Abbreviation
CL SAMSUNG Multilayer Ceramic Capacitor
2 SIZE(mm)
SymbolSize(mm)
Length Width
03 0.6 0.3
05 1.0 0.5
10 1.6 0.8
21 2.0 1.2
31 3.2 1.6
32 3.2 2.5
43 4.5 3.2
55 5.7 5.0
SAMSUNG Multilayer Ceramic Capacitor
Size(mm)
Capacitance Temperature Characteristic
Nominal Capacitance
Capacitance Tolerance
Rated Voltage
Thickness Option
Product & Plating Method
Samsung Control Code
Reserved For Future Use
Packaging Type
7
8
2
6
3
4
5
1
9
10
11
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3 CAPACITANCE TEMPERATURE CHARACTERISTIC
Symbol Temperature CharacteristicsTemperature
RangeC
Class
COG C 030(ppm/)
-55 ~ +125
P P2H P -15060
R R2H R -22060
S S2H S -33060
T T2H T -47060
U U2J U -75060
L S2L S +350 ~ -1000
A
Class
X5R X5R 15% -55 ~ +85
B X7R X7R 15% -55 ~ +125
F Y5V Y5V +22 ~ -82% -30 ~ +85
Temperature CharacteristicTemperature
CharacteristicsBelow 2.0pF 2.2 ~ 3.9pF Above 4.0pF Above 10pF
C C0G C0G C0G C0GP - P2J P2H P2HR - R2J R2H R2HS - S2J S2H S2HT - T2J T2H T2HU - U2J U2J U2J
J : 120PPM/, H : 60PPM/, G : 30PPM/
4 NOMINAL CAPACITANCENominal capacitance is identified by 3 digits.
The first and second digits identify the first and second significant figures of the capacitance.
The third digit identifies the multiplier. 'R' identifies a decimal point.
ExampleSymbol Nominal Capacitance
1R5 1.5pF
103 10,000pF, 10nF, 0.01F
104 100,000pF, 100nF, 0.1F
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5 CAPACITANCE TOLERANCE
Symbol Tolerance Nominal Capacitance
A 0.05pF
Less than 10pF
(Including 10pF)
B 0.1pF
C 0.25pF
D 0.5pF
F 1pF
F 1%
More than 10pF
G 2%
J 5%
K 10%
M 20%
Z +80, -20%
6 RATED VOLTAGE
Symbol Rated Voltage Symbol Rated Voltage
Q 6.3V E 250V
P 10V G 500V
O 16V H 630V
A 25V I 1,000V
B 50V J 2,000V
C 100V K 3,000V
D 200V
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7 THICKNESS OPTION
Type Symbol Thickness(T) Spec
0603 3 0.30 0.03
1005 5 0.50 0.05
1608 8 0.80 0.10
2012
A 0.650.10
C 0.85
F 1.25 0.10
3216
C 0.85 0.15
F 1.25 0.15
H 1.6 0.20
3225
F 1.25
0.20H 1.6
I 2.0
J 2.5
4532
F 1.25
0.20H 1.6
I 2.0
J 2.5
L 3.2 0.30
5750
F 1.25
0.20H 1.6
I 2.0
J 2.5
L 3.2 0.30
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8 PRODUCT & PLATING METHOD
Symbol Electrode Termination Plating Type
A Pd Ag Sn_100%
N Ni Cu Sn_100%
G Cu Cu Sn_100%
9 SAMSUNG CONTROL CODE
Symbol Description of the code Symbol Description of the code
A Array (2-element) N Normal
B Array (4-element) P Automotive
C High - Q W 3 Terminal EMI Filter
L LICC
10 RESERVED FOR FUTURE USE
Symbol Description of the code
N Reserved for future use
11 PACKAGING TYPE
Symbol Packaging Type Symbol Packaging Type
B Bulk F Embossing 13" (10,000EA)
P Bulk Case L Paper 13" (15,000EA)C Paper 7" O Paper 10"
D Paper 13" (10,000EA) S Embossing 10"
E Embossing 7"
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CAPACITANCE vs CHIP THICKNESS STANDARDDescription 0603
(0201)1005(0402)
1608(0603)
2012 Type(0805)
3216 Type(1206)
3225 Type(1210)
4532 Type(1812)
5750 Type(2220)
Dimension(mm)
L0.60.03
1.00.05
1.60.1 2.0
0.1 3.20.15 3.20.2 3.20.3 4.50.4 5.70.4
W0.30.03
0.50.05
0.80.1 1.25
0.1 1.60.15 1.60.2 2.50.2 3.20.3 5.00.4
T0.30.03
0.5~0.05
0.80.1
0.650.1
0.850.1
1.250.1
0.850.15
1.250.15
1.60.2
1.250.2
1.60.2
2.00.2
2.50.2
1.250.2
1.60.2
2.00.2
2.50.2
1.60.2
2.00.2
2.50.2
CAP
ACI
TANCE
RANG
E(
pF)
SL 50V - 0.5~2400.5 ~1000
0.5~1000
1100 ~1500
1600~2700
0.5 ~2700
3000~5600
6200~8200 - - - - - - - - - - -
C, TC(ExceptSL,UJ)
25V0.5~47
0.5~220
0.5 ~1000 - -
3300~8200
1500~3600
3900~6800
7500~10000 - - - - - 100000 - - - - -
50V - 0.5 ~1800.5 ~1000
0.5 ~560
620~1000
1100~3300
0.5 ~2200
2400~4700 -
560~10000
11000~
22000
24000~47000 -
1000~13000
15000~22000
24000~47000
62000~68000 43000 93000 130000
CAP
ACIT
ANCE
RANGE
(
nF)
A(X5R)
6.3V 10 220 2200 - - 10000 - - 10000 - - - 22000 - - - 47000 - - 47000
10V 10 100 1000 - - 2200 - - 4700~10000 - - - 22000 - - - - - - 47000
16V - 47330~470 - - 1000 - - 4700 - - -
6800~10000 - - - - - - -
25V - - - - - - - - - - - - - - - - - - - -
50V -6.8~10 - - - - - - - - - - - - - - - - - -
B(X7R)
6.3V0.1~10
47~100
470~1000 - - 1000 - -
6800~10000 - - - 22000 - - - - - - -
10V0.1~10
33~100
220~470
220~270
330~470
560~1000 -
1000~3300 4700
1500~2200 3300
3900~4700 - - - - 22000 - - -
16V0.1~
110~33
100~220
68~200
220~330
390~1000
330~680
1000~1500
2200~3300
1500~2200 3300
3900~4700 - - - 2200 - - - -
25V - 4.7~1047~100
39~68
82~100
150~470
100~330
470~620
680~1000
680~1500 1800 2200 - - - 1000 - - - 10000
50V - 0.22~4.70.22~
1000.22~
3947~100 220
1~150 220
390~1000
2.2~680
820~1000 - -
10~1000 - - - - -
3300~4700
F(Y5V)
6.3V10~
100- 2200 - - 10000 - - - - - 47000 - - - - - - - -
10V -220~330
100~1000 - - 4700 - 4700
10000~22000 - - - 22000 - - - - - - 100000
16V - 10~220100~1000
10~680
820~1000
1200~2200
1000~2200
2700~4700 10000
3300~6800 10000 15000 - - - 22000 - - - -
25V - 10~3322~330
10~220
270~470
560~1000
470~1000
1200~2200
2700~3300
1000~3300
4700~10000 - - - - - 10000 - - -
50V - 2.2~102.2~100
2.2~68
82~150
180~1000
10~470
560~1000 -
100~1000 - - - - - - 10000 - - -
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PACKAGING CARDBOARD PAPER TAPE
SymbolW F E P1 P2 P0 D t A B
Type
Di
mension
03
8.00.3
3.50.05
1.750.1
2.00.05
2.00.05
4.00.1
1.5+0.1/-0
0.370.03
0.380.03
0.680.03
050.60.05
0.65+0.05/-0.1
1.15+0.05/-0.1
10
4.00.1
1.1MAX
1.10.2
1.90.2
211.60.2
2.40.2
312.00.2
3.60.2
unit : mm
EMBOSSED PLA STIC TAPE
SymbolW F E P1 P2 P0 D t0 t1 A B
Type
Di
mension
21
8.00.3
3.50.05
1.750.1
4.00.1
2.00.05
4.00.1
1.5+0.1/-0
0.6max
2.5max
1.450.2
2.30.2
312.00.2
3.60.2
322.90.2
3.60.2
433.6
0.2
4.9
0.2
555.40.2
6.00.2
unit : mm
A
B
Feeding round holesPerforated squareholes for inserting a chip
D
P0 P1P2
WF
E
t1
t0
A
B
Feeding round holesPerforated squareholes for inserting a chip
D
P0 P1P2
WF
E
t
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TAPING SIZE
Empty Section
45 Pitch Packed Part
Empty Section
50 Pitch
Loading Section
35 P itch
STARTEND
REEL DIMENSION
E
C
DR
A
W
B
t
Symbol A B C D E W t R
7" Reel 1782.0 min.50
130.5 210.8 2.00.5 101.5 0.80.2 1.013"
Reel3302.0 min.70
unit : mm
Symbol Cardboard Paper Tape Embossed Plastic Tape
7" Reel 4000 200013" Reel 15000 -
unit : pcs
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Size 05(0402) 10(0603)21(0805)
T0.85mm T1.0mmQuantity 50,000 10,000~15,000* 10,000 5,000
BULK CASE PACKAGING- Bulk case packaging can reduce the stock space and transportation costs.
- The bulk feeding system can increase the productivity.- It can eliminate the components loss.
A B T
C
D
E
F W
L
G
H
I
Symbol A B T C D E
Dimension 6.80.1 8.80.1 120.1 1.5+0.1/-0 2+0/-0.1 4.70.1
Symbol F W G H L I
Dimension 31.5+0.2/-0 36+0/-0.2 190.35 70.35 1100.7 50.35
QUANTITY
* Option
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CHARACTERISTIC MAP CLASS
TemperatureCharacteristics Si ze Vo ltag e
Capacitance Range ()
SL,UJ
05(0402) 50V
10(0603) 50V
21(0805) 50V
31
(1206) 50V
C(COG) &TC Series
03(0201) 25V
05(0402)
25V
50V
10(0603)
25V
50V
21(0805)
25V
50V
31(1206)
25V
50V
32(1210)
50V
100V
43
(1812)
25V
50V
55(2220) 50V
10 100 1000 10000 100000 1000000 10000000 1000000000.5
240
2700
8200
1000
1000
100001500
3300
4700
1000
180
220
47
82003300
180004700
560 47000
680001000
100000
13000043000
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CLASS , A(X5R)Temperature
Characteristics Size VoltageCapacitance Range ()
A(X5R)
0603(0201)
6.3V
10V
1005(0402)
6.3V
10V
16V
50V
1608(0603)
6.3V
10V
16V
2012(0805)
6.3V
10V
16V
3216(1206)
6.3V
10V
16V
3225(1210)
6.3V
10V
16V
4532(1812) 6.3V
5750(2220)
6.3V
10V
10 100 1000 10000 100000 1000000 10000000 100000000
10000
100000
10000
100000004700000
22000000
2200000
10000000
4700000
22000000
47000000
47000
100006800
1000000
2200000
1000000
470000330000
10000000
100000006800000
47000000
47000000
220000
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CLASS , B(X7R)Temperature
Characteristics Size VoltageCapacitance Range (
)
B(X7R)
03(0201)
6.3V
10V
16V
05(0402)
6.3V
10V
16V
25V
50V
10(0603)
6.3V
10V
16V
25V
50V
21(0805)
6.3V
10V
16V
25V
50V
31(1206)
6.3V
10V
16V
25V
50V
10 100 1000 10000 100000 1000000 10000000 100000000
10000047000
4700000
470000
100000
1000000
470000
220000
1000000
3300000
1000000
1000000
100 10000
10000000
100000
100000
100 10000
100 1000
6800000
33000
10000 33000
100004700
4700220
470000
220000
220000100000
47000
220
220000
100000068000
39000
220
1000000
330000
100000
10000001000
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CLASS , B(X7R)Temperature
Characteristics Size VoltageCapacitance Range (
)
B(X7R)
32(1210)
6.3V
10V
16V
25V
50V
43(1812)
10V
16V
25V
50V
55(2220)
25V
50V
10 100 1000 10000 100000 1000000 10000000 100000000
22000000
100000010000
47000001500000
22000000
1000000
10000000
47000003300000
47000001500000
2200000680000
10000002200
2200000
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Multilayer Ceramic Capacitor CLASS , F(Y5V)
TemperatureCharacteristics Size Voltage
Capacitance Range ()
F(Y5V)
03(0201) 6.3V
05(0402)
10 V
16 V
25 V
50 V
10(0603)
6.3V
10 V
16 V
25 V
50 V
21(0805)
6.3V
10 V
16 V
25 V
50 V
31(1206)
10 V
16 V
25 V
50 V
32(1210)
6.3V
10 V
16 V
25 V
50 V
43(1812)
16V
25 V
50 V
55(2220) 10 V
330000
33000
10000
220000
10000
2200
1000000
330000
100000
100000
22000
2200
1000000
220000010000
10000
220000004700000
10000000
3300000
1000000
1000000
470000
10000
4700000
1000000
150000003300000
1000000
100000
10000000
22000000
10000 220000
10000000
10000000
100000000
2200000
10000000
10000010000
1000000100000
10000002200
47000000
22000000
10 100 1000 10000 100000 1000000 10000000 100000000
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RELIABILITY TEST DATANO ITEM PERFORMANCE TEST CONDITION
1 AP PEARANCE NO ABNORMAL EXTERIOR AP PEARANCE THROUGH MICROSCOP E(
10)
2INSULATION
RESISTANCE
10,000 OR 500 PRODUCT WHICHEVER IS
SMALLER
(RATED VOLTAGE IS BELOW 16V
: 10,000 OR 100)
RATED VOLTAGE SHALL BE APPLIED.
MEASUREMENT TIME IS 60 ~ 120 RATED VOLTAG
TIME 60 SEC.
3WITHSTANDING
VOLTAGE
NO DIELECTRIC BREAKDOWN OR
MECHANICAL BREAKDOWN
CLASS: 300% OF THE RATED VOLTAGE F OR 1~5 SEC
CLASS:250% OF THE RATED VOLTAGE FOR 1~5 S EC
IS APPLIED WITH LESS THAN 50 CURRENT
4CAPACIT
ANCE
CLASS
WITHIN THE SPECIFIED
TOLERANCE
CAPACITANCE FREQUENCY VOLTAGE
1,000 AND
BELOW110%
0.5 ~ 5 VrmMORE THAN
1,000110%
CLASS
WITHIN THE SPECIFIED
TOLERANCE
CAP ACITANCE F REQUENCY VOLT AGE
10 AND BELOW 110% 1.00.2Vrm
MORE THAN
1012020% 0.50.1Vrm
5 Q CLASS
OVER 30 : Q 1,000
LESS THAN 30: Q 400 +20C
( C : CAPACITANCE )
CAP ACITANCE F REQUENCY VOLT AGE
1,000 AND
BELOW 110%0.5 ~ 5 Vrm
MORE THAN
1,000110%
6 TanCLASS
1. CHAR : B
2. CHAR : F
CAP ACITANCE F REQUENCY VOLT AGE
10 AND BELOW 110% 1.00.2Vrm
MORE THAN 10 12020% 0.50.1Vrm
RATED VOLTAGE DF SPEC
6.3V 0.05 max
10V 0.05 max
16V 0.035 max
25V 0.025 max
50V 0.025 max
6.3V 10V 16V 25V 50V
1005 - 0.125max0.09max (C220nF)
0.125max (C220nF)0.05max 0.05max
1608 0.16max 0.125max 0.09max0.05max(C100nF)
0.07max(C>100nF)0.05max
2012 0.16max 0.125max 0.09max 0.07max 0.05max
3216 0.16max 0.125max 0.09max 0.07max 0.05max
3225 0.16max 0.125max 0.09max0.07max(C6.8)
0.09max(C>6.8)0.05max
4532 0.16max 0.16max 0.09max - -
5750 0.125max - - -
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NO ITEM PERFORMANCE TEST CONDITION
7
CAPACITANCE
TEMPERATURE
COEFFICIENT
CLASS
THESE SYMMETRICAL TOLERANCE APPLY TO
2 POINT MEASUREMENT OF TEMPERATURE
COEFFICIENT: ONE AT 25 AND AT 85
8
TEMPERATURE
CHARACTERISTIC
S
CLASS
CAPACITANCE CHANGE
The change of capacitance should be got from
the capacitance at 25.
After capacitance measured from Min. Temp. to
Max. Temp.,
it should be calculated from the formula below.
C2 - C1
C1
C1 : CAPACITANCE AT STANDARD
TEMPERATURE(25)
C2 : CAPACITANCE AT EACH
TEMPERATURE
9ADHESIVE STRENGTH
OF TERMINATION
NO INDICATION OF PEELING S HALL
OCCUR ON THE TERMINAL
ELECTRODE.
A 500g.f PRESSURE SHALL BE
APPLIED FOR 101 SECOND.
SEE (FIG.1)
10BENDING
STRENGTH
APPEARANCE NO MECHANICAL DAMAGE SHALL
OCCUR.
BENDING SHALL BE APPLIED TO
THE LIMIT(1mm) WITH 0.3mm/SEC.
KEEP THE TEST BOARD AT THE LIMIT P OINT
IN 5 SEC., THEN MEASURE CAPACITANCE.
SEE (FIG.2)
CAPACITANCE
CHARACTERCHANGE OF
CAPACITANCE
CLASS I
WITHIN 5%
OR 0.5 pFWHICHEVER IS
LARGER
CLASS II
A,B WITHIN 12.5%
F WITHIN 30%
CHAR. CAP. CHANGE(%)
A,B 15%
F +22% ~ -82%
500g.f
100 %
50
R=34020
451 451BENDING
LIMIT
CHARACTER LIMIT
C, A, B, F 1mm
CHARACTERISTICTEMP. COEFF ICIENT
(PPM/)
C0G 0 30
PH -150 60
RH -220 60
SH -330 60
TH -470 60
UL -750 120
SL +350 ~ -1000
STEP TEMPERATURE
1 25 2
2 MIN RATED TEMP 2
3 25 2
4 MAX RATED TEMP 2
5 25 2
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* THE INITIAL VALUE OF HIGH DIELECTRIC CONSTANT SERIES SHALL BE MEASURED
AFTER THE HEAT TRE ATMENT OF 150 +0/-10, 1Hr AND SITTING OF 484hr AT ROOM TEMPERATURE & ROOM HUMIDITY.
NO ITEM PERFORMANCE TEST CONDITION
11 SOLDERABILITY
MORE THAN 75% OF THE TERMINAL
SURFACE IS TO BE SOLDERED NEWLY,
SO METAL PART DOES NOT COMEOUT OR DISSOLVE
IN PB--FREE PART, MORE THAN 95%
OF THE TERMINAL SURFACE IS TO BE
SOLDERED NEWLY
SOLDER TEMPERATURE : 2305
DIP TIME : 31 Sec
SOLDER : H63AFLUX : RMA TY PE
*PB-FREE
SOLDER TEMPERATURE : 2605
SOLDER : Sn96.5-3Ag-0.5Cu
Flux : RMA TYPE
DIP TIME : 30.1Sec
* P RE-HEATING : AT 80~120 FOR 10~30SEC
12
RESISTANCE
TO SOLDERING
HEAT
APPEARANCENO MECHANICAL DAMAGE
SHALL OCCUR
DIP : SOLDER TEMPERATURE OF
2705
DIP TIME :101 SEC.EACH TERMINATION SHALL BE FULLY
IMMERSED AND PREHEATED
AS FOLLOWING:
MEASURE AT ROOM TEMP. AFTER
COOLING FOR
CLASS : 24 2 HOURSCLASS : 48 4 HOURS
CAPACITANCE
CHARACTERISTIC CAP. CHANGE
CLASS
WITHIN 2.5% OR
0.25 WHICHEVER
IS LARGER
CLASSA,B WITHIN 7.5%
F WITHIN 20%
Q
CLASS
30 AND OVER : Q 1000
LESS THAN 30 : Q 400+20C
Tan
CLASS
TO SATISFY THE SPECIFIED
INITIAL VALUE
INSULATIONRESISTANCE
TO SATISFY THE SPECIFIEDINITIAL VALUE
WITHSTANDING
VOLTAGE
TO SATISFY THE SPECIFIED
INITIAL VALUE
13VIBRATION
TEST
APPEARANCENO MECHANICAL DAMAGE SHALL
OCCUR.
BENDING SHALL BE APPLIED TO
THE LIMIT(1mm) WITH 0.3mm/SEC.
KEEP THE TEST BOARD AT THE LIMIT POINT
IN 5 SEC., THEN MEASURE CAPACITANCE.
THE ENTIRE FREQUENCY RANGE,
FROM 10 TO 55Hz AND RETURN
TO 10Hz, SHALL BE TRAVERSED
IN 1 MINUTE.
THIS CYCLE SHALL BE PERF ORMED
2 HOURS IN EACH THERE MUTUALLY
PERP ENDICULAR DIRECTION,
FOR TOTAL PERIOD OF 6 HOURS.
CAPACITANCE
CHARACTERISTIC CAP. CHANGE
CLASS
WITHIN 2.5% OR
0.25
WHICHEVER
IS LARGER
CLASS
A,B WITHIN 5%
F WITHIN 20%
Q
CLASS
30 AND OVER : Q 1000
LESS THAN 30 : Q 400+20C
Tan
CLASS
TO SATISFY THE SPECIFIED
INITIAL VALUE
INSULATION
RESISTANCE
TO SATISFY THE SPECIFIED
INITIAL VALUE
S TE P TE MP .()TIME
(SEC.)
1 80~100 60
2 150~180 60
CHAR. FREQUENCY RANGE
A,B ,C,F 10Hz 55Hz 10Hz
CHA R. TRA VERSE D TIME
A,B ,C,F 1 mi n
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14
HUMIDITY
(STEADY
STATE)
APPEARANCE NO MECHANICAL DAMAGE SHALL OCCUR TEMPERATURE : 402
RELATIVE HUMIDITY:90~95 %RH
TEST TIME : 500 +12/-0 Hr.
MEASURE AT ROOM TEMPERATURE
AFTER COOLING FOR
CLASS : 242 Hr.
CLASS : 484 Hr.
CAPACITANCE
CHARACTERISTIC CAPACITANCE CHANGE
CLASS
WITHIN 5% OR
0.5 WHICHEVER
IS LARGER
CLASS
A,B WIT HIN 12.5%
F WITHIN 30%
Q
CLASS
30 AND OVER : Q 350
10 ~30 : Q 275 + 2.5C
LESS THAN 10pF : Q 200 + 10C
Tan
CLASS
INSULATION
RESISTANCE
MINIMUM INSULATION RESISTANCE:
1,000 OR 50 PRODUCT WHICHEVER IS
SMALLER
15
MOISTURE
RESISTANCE
APPEARANCE NO MECHANICAL DAMAGE SHALL OCCUR APPLIED VOLTAGE :
RATED VOLTAGE
TEMPER ATURE : 402
RELATIVE HUMIDITY:90~95%RH
TEST TIME : 500 +12/-0 Hr.CURRENT APPLIED : 50 MAX.
CLASS SHOULD BE MEASURED
INITIAL VALUE AFTER BE HEAT-TREATED
FOR 1 HR IN 150+0/-10 AND BE LEFT
FOR 484HR AT ROOM TEMPERATURE.
CLASS SHOULD BE MEASURED AFTER
LEFT FOR 242 HRS IN ROOM
TEMPER ATURE AND HUMIDITY.
CLASS SHOULD BE MEASURED
LATTER VALUE AFTER BE
HEAT-TREATED FOR 1 HR IN 150+0/-10
AND BE LEFT FOR 484HR AT ROOM
TEMPER ATURE.
CAPACITANCE
CHARACTERISTIC CAPACITANCE CHANGE
CLASS
WITHIN 7.5% OR
0.75 WHICHEVER
IS LARGER
CLASS
A,B WIT HIN 12.5%
F
WITHIN 30%
WITHIN +30~40%
1005 C>0.47F
1608 C>1.0F
2012 C>4.7F
3216 C>10.0F
3225 C>22.0F
4532 C>47.0F
Q
CLASS
30 AND OVER : Q 200
30 AND BELOW : Q 100 + 10/3C
Tan
CLASS
INSULATION
RESISTANCE
MINIMUM INSULATION RESISTANCE:500 OR 25 PRODUCT,
WHICHEVER IS SMALLER.
CHAR.25VAND
OVER16V 10V 6.3V 4V
A,B 0.05 0.05 MAX 0.05MAX0.075MAX
0.1MAX
F 0.075MAX
0.1MAX(C1.0)
0.125MAX
(C1.0)
0.15MAX
0.195MAX
0.25MAX
CHAR.25VAND
OVER16V 10V 6.3V 4V
A,B 0.05MAX0.05MAX
0.05MAX
0.075MAX
0.1MAX
F 0.075MAX
0.1MAX(C1.0)0.125MAX(C1.0)
0.15MAX
0.195MAX
0.25MAX
6.3V
Tan0.125 MAX *Condition
CLASS
(A,B)
1005 C 0.22
1608 C 2.2
2012 C 4.7
3216 C 10.03225 C 22.0
4532 C 47.0
5750 C 100.0
6.3V Tan 0.125 MAX *Condition
CLASS
(A,B)
1005 C 0.22
1608 C 2.2
2012 C 4.7
3216 C 10.0
3225 C 22.0
4532 C 47.0
5750 C 100.0
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NO ITEM PERFORMANCE TEST CONDITION
16
HIGH
TEMPERATURE
RESISTANCE
APPEARANCE NO MECHANICAL DAMAGE SHALL OCCUR
APPLIED VOLTAGE :
150%, 200% OF RATED VOLTAGE
TEST TIME : 1000 +48/-0 Hr.CURRENT APPLIED : 50 MAX.
CLASS SHOULD BE MEASURED INITIAL
VALUE AFTER BE HEAT-TREATED FOR 1
HR IN 150+0/-10 AND BE LEFT FOR 48
4HR AT ROOM TEMPERATURE.
CLASS SHOULD BE MEASURED AFTER
LEFT FOR 242 HRS IN ROOM
TEMPERATURE AND HUMIDITY.
CLASS SHOULD BE MEASURED LATTER
VALUE AFTER BE HEAT-TREATED FOR 1
HR IN 150+0/-10 AND BE LEFT FOR 48
4HR AT ROOM TEMPERATURE.
(TWICE OF RATED VOLTAGE WILL BE
APPLIED TO ALL SERIES BUT ABOVE)
** HOWEVER, A/B1005 C 0.22
SEE (FIG.3)
CAPACITANCE
CHARACT ERISTIC CAP . CHANGE
CLASS WITHIN 3% OR 0.3,
WHICHEVER IS LARGER
CLASS
A,B WITHIN 12.5%
F
WITHIN 30%
WITHIN+30~40%
1005 C >0.47F
1608 C>1.0F
2012 C>4.7F
3216 C >10.0F
3225 C >22.0F
4532 C >47.0F
Q
CLASS
30 AND OVER : Q 350
10 ~ 30 : Q 275 + 2.5C
LESS THAN 10 :Q 200 + 10C
Tan
CLASS
INSULATION
RESISTANCE
MINIMUM INSULATION RESISTANCE:
1,000 OR 50 PRODUCT
WHICHEVER IS SMALLER
17TEMPERATURE
CYCLE
APPEARANCE NO MECHANICAL DAMAGE SHALL OCCUR CAPACITORS SHALL BE SUBJ ECTED
TO FIVE CYCLES OF THETEMPERATURE CYCLE AS FOLLOWING
STEP TEMP .() TIME(MIN)
1MIN.RATED
TEMP.+0/-330
2 25 2~3
3MAX.RATED
TEMP.+3/-030
4 25 2~3
MEASURE AT ROOM TEMPERATURE
AFTER COOLING FORCLASS : 242 Hr.
CLASS : 484 Hr.
CAPACITANCE
CHARACT ERISTIC CAP . CHANGE
CLASS
WITHIN 2.5%
OR 0.25 WHICHEVER IS
LARGER
CLASS
A,B WITHIN 7.5%
F WITHIN 20%
Q
CLASS
30 AND OVER : Q 1000
LESS THAN 30:Q 400 +20C
Tan
CLASS
TO SATISFY THE SPECIFIED
INITIAL VALUE
INSULATION
RESISTANCE
TO SATISFY THE SPECIFIED
INITIAL VALUE
CHAR.25VAND
OVER16V 10V 6.3V 4V
A,B 0.05MAX0.05MAX
0.05MAX
0.075MAX
0.1MAX
F 0.075MAX
0.1MAX(C0.47F
1608 C 2.2
2012 C 4.7
3216 C 10.0
3225 C 22.0
4532 C 47.0
5750 C 100.0
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CHARACTERISTIC GRAPH
0 50 100 1000 10000
0
10
-10
-20
-30
Time(Hr)
C%
C0G
X7R
Y5V
CAPACITANCE CHANGE - AGING
-60 1400-20 20 60 100
Temperature()
C%
0
5
-5
-10
10
C0G
UJTH
RHSH
IMPEDANCE - FREQUENCY CHARACTERISTICS
CAPACITANCE - DC VOLTAGE CHARACTERISTICS
C0G
0.01
0.1
1
10
100
1.E+06 1.E+07 1.E+08 1.E+09 1.E+10
Ohm
1MHz 10MHz 100MHz 1GHz 10GHz
1000pF
100pF
10pF
X7R/Y5V
0.01
0.1
1
10
100
1.E+06 1.E+07 1.E+08 1.E+09
Ohm
0.1
0.01
0.001
1MHz 10MHz 100MHz 1GHz
-100
-80
-60
-40
-20
0
20
40
0 5 10 15 20 25 30 35 40
DC V o l tage(V dc)
C0G 50V
C%
X7R
50V
Y5V
50V
-60 1200-20 20 40 80
-80
-60
-40
-20
0
20
X7R
Y5V
Temperature()
C%
CAPACITANCE - TEMPERATURE CHARACTERISTICS
ELECTRICAL CHARACTERISTICS
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APPL ICATION MANUAL Storage Condition Storage EnvironmentThe electrical characteristics of MLCCs were degraded by the environment of high temperature
or humidity. Therefore, the MLCCs shall be stored in the ambient temperature and the relative
humidity of less than 40 and 70%, respectively. Guaranteed storage period is within 6 months
from the outgoing date of delivery.
Corrosive GasesSince the solderability of the end termination in MLCC was degraded by a chemical atmosphere
such as chlorine, acid or sulfide gases, MLCCs must be avoid from these gases.
Temperature FluctuationsSince dew condensation may occur by the differences in temperature when the MLCCs are
taken out of storage, it is important to maintain the temperature-controlled environment.
Design of Land PatternWhen designing printed circuit boards, the shape and size of the lands must allow for the
proper amount of solder on the capacitor. The amount of solder at the end terminations has a
direct effect on the crack. The crack in MLCC will be easily occurred by the tensile stress whichwas due to too much amount of solder. In contrast, if too little solder is applied, the termination
strength will be insufficiently. Use the following illustrations as guidelines for proper land design.
Recommendation of Land Shape and Size
W b
aSolderLand
Solder Resist
2 /3 W < b < W
TSolder Resist
2/3T < a < T
Adhes iv esWhen flow soldering the MLCCs, apply the adhesive in accordance with the following conditions.
Requirements for AdhesivesThey must have enough adhesion, so that, the chips will not fall off or move during the
handling of the circuit board.
They must maintain their adhesive strength when exposed to soldering temperature.
They should not spread or run when applied to the circuit board.
They should harden quickly.
They should not corrode the circuit board or chip material.
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They should be a good insulator.
They should be non-toxic, and not produce harmful gases, nor be harmful when touched.
Ap pl ic ati on MethodIt is important to use the proper amount of adhesive. Too little and much adhesive will cause
poor adhesion and overflow into the land, respectively.
Ad hesiv e hardenin g Characterist ic sTo prevent oxidation of the terminations, the adhesive must harden at 160 or less, within
2 minutes or less.
Mounting Mounting Head Pressure
Excessive pressure will cause crack to MLCCs. The pressure of nozzle will be 300g maximum
during mounting.
Bending StressWhen double-sided circuit boards are used, MLCCs first are mounted and soldered onto one side
of the board. When the MLCCs are mounted onto the other side, it is important to support the
board as shown in the illustration. If the circuit board is not supported, the crack occur to the
ready-installed MLCCs by the bending stress.
support pin
force
nozzle
FluxAlthough the solderability increased by the highly-activated flux, increase of activity in flux may
also degrade the insulation of the chip capacitors. To avoid such degradation, it is recommended
that a mildly activated rosin flux(less than 0.2% chlorine) be used.
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SolderingSince a multilayer ceramic chip capacitor comes into direct contact with melted solder during
soldering, it is exposed to potentially mechanical stress caused by the sudden temperature
change. The capacitor may also be subject to silver migration, and to contamination by theflux. Because of these factors, soldering technique is critical.
Soldering MethodsMethod Classification
Reflow
soldering
- Overall heating
- Infrared rays
- Hot plate- VPS(vapor phase)
- Local heating
- Air heater
- Laser
- Light beamFlow
soldering
- Single wave- Double wave
-
* We recommend the reflow soldering method.
Soldering ProfileTo avoid crack problem by sudden temperature change, follow the temperature profile in the
adjacent graph.
300
250
200
150
100
50
preheating soldering cooling
60~120sec 10~20sec
Reflow Soldering
300
250
200
150
100
50
preheating soldering cooling
T150
60~120sec 3~4sec
Flow Soldering
Manual SolderingManual soldering can pose a great risk of creating thermal cracks in chip capacitors. The hot
soldering iron tip comes into direct contact with the end terminations, and operator's carelessness
may cause the tip of the soldering iron to come into direct contact with the ceramic body of
the capacitor. Therefore the soldering iron must be handled carefully, and close attention must
be paid to the selection of the soldering iron tip and to temperature control of the tip.
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Am ount of Solder
Too muchSolder
Not enough
Solder
Cracks tend to occur dueto large stress
Weak holding force may
cause bad connections or
detaching of the capacitor
Good
CoolingNatural cooling using air is recommended. If the chips are dipped into solvent for cleaning,
the temperature difference(T) must be less than 100
6-6. Cleaning
If rosin flux is used, cleaning usually is unnecessary. When strongly activated flux is used,
chlorine in the flux may dissolve into some types of cleaning fluids, thereby affecting the chip
capacitors. This means that the cleaning fluid must be carefully selected, and should alwaysbe new.
Notes for Separating Multiple, Shared PC Boards.A multi-PC board is separated into many individual circuit boards after soldering has been
completed. If the board is bent or distorted at the time of separation, cracks may occur in the
chip capacitors. Carefully choose a separation method that minimizes the bending of the
circuit board.
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CROSS REFERENCEP/N COMPANY SAMSUNG AVX J OHANSON KEMET K YOCERA MURATA N OVACAP P ANASONIC ROHM
TAIYO
- YUDENTDK V ITRA MO N
COMPANY MODEL(MLCC) CL - - C CM GRM - ECJ MCH MK C VJ
SIZE(EIA/JIS)
0201(0603) 03 - - - 03 33 - Z - 063 0603 -
0402(1005) 05 0402 R07 0402 05 36 0402 0 15 105 1005 0402
0603(1608) 10 0603 R14 0603 105 39 0603 1 18 107 1608 0603
0805(2012) 21 0805 R15 0805 21 40 0805 2 21 212 2012 0805
1206(3216) 31 1206 R18 1206 316 42-6 1206 3 31 316 3216 1206
1210(3225) 32 1210 S41 1210 32 42-2 1210 4 32 325 3225 1210
1808(4520) 42 1808 R29 1808 42 - 1808 - - - 4520 1808
1812(4532) 43 1812 S43 1812 43 43-2 1812 - 43 432 4532 1812
2220(5750) 55 - - 2220 55 44-1 2221 - - 550 5650 -
TEMPERATURE
CHARACTERISTIC
COG(NPO) C A N G CG COG/CH N C A C COG/CH A
P2H(N150) P S - - P P2H - P - P P H -
R2H(N220) R 1 - - R R 2H - R - R RH -
S2H(N330) S 3 - - S S2H - S - S S H -
T2H(N470) T O - - T T2H - T - T TH -
U2J(N750) U Z - - U U2J - U UJ U UJ -
S2L L Y - - SL SL - G SL SL SL -
X7R B C W R(X) X7R X7R B B C BJ X7R(B) Y(X)
Z5U E E Z U - Z5U Z - E - Z5U U
Y5V F G Y V Y5V Y 5V Y F F F Y5V -
NOMINAL CAPACITANCE EX) 103=10,000 221=220 225=2,200,000=2.2 1R5=1.5 010=1
CAPACITANCE TOLERANCE B:0.1 C:0.25 D:0.5 F:1% G:2% J :5% K:10% M:20% Z:-20~+80%
RATEDVOLTAGE
6.3V Q 6 - 9 06 6.3 - 0J - J 0J -
10 V P Z 100 8 10 10 - 1A 4 L 1A -
16 V O Y 160 4 16 16 160 1C 3 E 1C J
25 V A 3 250 3 25 25 250 1E 2 T 1E X
50 V B 5 500 5 50 50 500 1H 5 U 1H A
100 V C 1 101 1 100 100 101 2A 1 - 2A B
200V D 2 201 2 200 200 201 2D - - - C
250V E V - - 250 250 251 - - - 2E -
500V G 7 501 - 500 500 501 - - - - E
630V H - - - 630 630 - - - - 2J -
1000V I A 102 - 1000 1K 102 - - - 3A G
2000V J G 202 - 2000 2K 202 - - - 3D -
3000V K H 302 - 3000 3K 302 - - - 3F H
4000V - J - 4000 - 402 - - - - -
TERMINATIONNICKEL BARRIER N T V C A (GRM) N - (MCH) - - X
Ag/Pd P 1 - - B (GR) P - (MC) - - F
PACKAGE
BULK(VINYL) B 9 (NONE) - B PB * X - B B B
PAPER TAPING C 2, 4 T, R - T, L PT T E,V,W K, L T T C, P
PLASTIC TAPING E 1, 3 E, U - H, N PT - F, Y P, Q T - T, R
BULK CASE P 7 - - C PC - C C - - G
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SAMSUNG : CL10B104KA8NNNCCL 10 B 104 K A 8 N N N C
AVX : 06033C104KAT2A0603 3 C 104 K A T 2 A
J OHANSON : 250R14W104KV6T250 R14 W 104 K V 6 T
KEMET : C0603C104K3RACC 0603 C 104 K 3 R A C
Series Size
03 = 0201
05 = 0402
10 = 0603
21 = 0805
31 = 1206
32 = 1210
43 = 1812
55 = 2220
Dielectric
C = C0G
P = P2H
R = R2H
S = S2H
T = T2H
U = U2H
L = S2L
B = X7R
A = X5R
F = Y5V
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
Tolerance
A =0.05pF
B =0.1pF
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80,-20%
Voltage
Q = 6.3V
P = 10V
O = 16V
A = 25V
B = 50V
C = 100V
D = 200V
E = 250V
G = 500V
H = 630V
I = 1000V
Thickness
3 = 0.30
5 = 0.50
8 = 0.80
A = 0.65
C = 0.85
H = 1.60
I = 2.00
J = 2.50
L = 3.20
Electrode/
Termination/Plating
A = Pd/Ag/
Sn 100%
N = Ni/Cu/
Sn 100%
G = Cu/Cu/
Sn 100%
Products
A = Array
(2-element)
B = Array
(4-element)
C = High - Q
L = LICC
N = Normal
P = Automotive
W = 3 terminal
chip
Special
Various
Packaging
B = Bulk
P = Cassette
C = Paper 7"
D = Paper 13"
(10,000EA)
E = Embossing 7"
F = Embossing 13"
L = Paper 13"
(15,000EA)
O = Paper 10"
S = Embossing 10"
Size
0201
0402
0603
0805
1206
1210
1812
2220
2225
Voltage
4 = 4V
6 = 6.3V
Z = 10V
Y = 16V
3 = 25V
B = 50V
C = 100V
D = 200V
E = 250V
G = 500V
I = 1000V
Dielectric
A = C0G
C = X7R
D = X5R
E = Z5U
G = Y5V
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal
point
Tolerance
B =0.1pF
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80, -20%
P = GMV,+100,-0%
Failure Rate
A = N/A
Termination
T = Sn 100%
7 = Gold P lated
1 = Pd/Ag
Packaging
2 = 7" Reel
4 = 13" Reel
7 = Cassette
9 = Bulk
Special
A = Standard
T = 0.66mm
S = 0.56mm
R = 0.46mm
Voltage
2
significant
figures
+
number
of zeros
Size
R07 = 0402
R14 = 0603
R15 = 0805
R18 = 1206
S41 = 1210
S43 = 1812
S47 = 2220
S48 = 2225
S49 = 1825
S54 = 3640
Dielectric
N = C0G
W = X7R
X = X5R
Z = Z5U
Y = Y5V
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
Termination
V = Ni Barrier
Marking
4 = No Mark
6 = Marking
Packaging
E = 7" Reel P lastic
T = 7" Reel Paper
R = 13" Reel Paper
U = 13" Reel P lastic
None = Bulk
Ser ies Si ze
0402
0603
0805
1206
1210
1812
2220
2225
Specification
C = Standard
A = GR900
P = Mil-C-55681
CDR01-CDR06
N = Mil-C-55681
CDR31-CDR35
Z = Mil-C-123
E = Mil Equivalent(Group A Only)
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
Tolerance
B =0.1pF
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80, -20%
P = +100, 0%
Voltage
9 = 6.3V
8 = 10V
4 = 16V
3 = 25V
5 = 50V
1 = 100V
2 = 200V
Dielectric
G = C0G
R = X7R
P = X5R
U = Z5U
X = BX(Mil)
V = Y5V
Tolerance
B =0.1pF
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80, -20%
P = GMV,+100,-0%
Failure Rate
A = Standard
M = 1.0 (Mil)
P = 0.1 (Mil)
R = 0.01 (Mil)
S = 0.001 (Mil)
Termination
C = Ni w/Tin Plate
H = Ni w/Solder
T = Silver
G = Gold P lated
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Multilayer Ceramic Capacitor
KYOCERA : CM105X7R104K25ATCM 105 X7R 104 K 25 A T
MURATA : GRM188R71E104KA01DGRM 18 8 R7 1E 104 K A01 D
NOVACAP : 0603B104K250N_TM1206 B 104 K 250 N - T M
PANASONIC : ECJ 1EB1E104KECJ 1 E B 1E 104 K
Series Size
03 = 0201
05 = 0402
105 = 0603
21 = 0805
316 = 1206
32 = 1210
42 = 1808
43 = 1812
55 = 2220
Dielectric
CG
X8R
X7R
X5R
Z5U
Y5V
Y5U
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
Tolerance
B =0.1pF
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80, -20%
P = +100, 0%
Voltage
04 = 4V
06 = 6.3V
10 = 10V
16 = 16V
25 = 25V
50 = 50V
100 = 100V
250 = 250V
500 = 500V
1000 = 1000V
Termination
A = Ni Barrier
Packaging
T = 7" R eel (4mm P itch)
L = 13" Reel (4mm Pitch)
H = 7" Reel (2mm P itch)
N = 13" Reel (2mm Pitch)
B = Bulk (Vinyl Bags)
C = Bulk Cassette
Series
Ni Barrier
Size
03 = 0201
15 = 0402
18 = 0603
21 = 0805
31 = 1206
32 = 1210
42 = 1808
43 = 1812
55 = 2220
Thickness
3 = 0.3mm
5 = 0.5mm
8 = 0.8mm
A = 1.0mm
B = 1.25mm
C = 1.6mm
D = 2.0mm
E = 2.5mm
F = 3.2mm
Dielectric
5C = C0G
R7 = X7R
R6 = X5R
E4 = Z5U
F5 = Y5V
Voltage
0J = 6.3V
1A = 10V
1C = 16V
1E = 25V
1H = 50V
2A = 100V
2E = 250V
2H = 500V
3A = 1000V
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal
point
Tolerance
B =0.1pF
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80,-20%
P = +100, 0%
Individual
Specification
Code
Packaging
D = 7" Reel Paper
L = 7" Reel P lastic
J = 13" Reel Paper
K = 13" Reel Plastic
B = Bulk
C = Bulk Cassette
T = Bulk Tray
Size
0402
0603
0805
1005
1206
1210
1808
1812
2220
Dielectric
N = C0G
B = X7R
X =BX
Z = Z5U
Y = Y5V
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
Tolerance
B =0.1pF
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80,-20%
P = +100,
0%
Voltage
2
significant
figures
+
number
of zeros
Termination
P = Pd/Ag
N = Ni Barrier
(Sn 100%)
Y = Ni Barrier
(Sn/Pb)
Thickness
Per Specified
Packaging
T = Reel
None = Bulk
W = Waffle Pack
Marking
Series Size
Z = 0201
0 = 0402
1 = 0603
2 = 0805
3 = 1206
4 = 1210
Packaging
X = Bulk
E = Paper 2mm
V = Paper 4mm
F, Y = Plastic 4mm
W = Large Reels 2mm
Z = Large Reels 4mm
C = Bulk Cassette
Dielectric
C = C0G
B = X7R, X5R
F = Y5V
Voltage
0J = 6.3V
1A = 10V
1C = 16V
1E = 25V
1H = 50V
2A = 100V
2D = 200V
Tolerance
C =0.25pF
D =0.5pF
F =1%
J =5%
K =10%
M =20%
Z = +80, -20%
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
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Multilayer Ceramic Capacitor
ROHM : MCH182C104KKNMCH 18 2 C 104 K K N
TAIYO-YUDEN : TMK107BJ 104K_TT M K 107 BJ 104 K - T
TDK : C1608X7R1E104KTC 1608 X7R 1E 104 K T
VITRAMON : VJ 0603Y104KXXMCVJ 0603 Y 104 K X X M C
Series Size
15 = 0402
18 = 0603
21 = 0805
31 = 1206
32 = 1210
43 = 1812
Voltag
e
4 = 10V
3 = 16V
2 = 25V
5 = 50V
Dielectric
A = C0G
C = X7R
F = Y5V
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
Tolerance
B =0.1pF
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80,-20%
P = +100, 0%
Packaging
K = 7" Reel Paper
P = 7" Reel P lastic
L = 13" Reel Paper
Q = 13" Reel P lastic
B = Bulk
C = Bulk Cassette
Marking/Thickness
N = Marked
Special Thickness
Voltage
A = 4V
J = 6.3V
L = 10V
E = 16V
T = 25V
U = 50V
Type
M = Multilayer
V = Hi Q
Termination
K = Ni Barrier
Size
105 = 0402
107 = 0603
212 = 0805
316 = 1206
325 = 1210
432 = 1812
550 = 2220
Dielectric
CG = C0G
CH = C0H
CJ = C0J
CK = C0K
BJ = X5R,
X7R
F = Y5V
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
Tolerance
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80,-20%
Special
Various
Packaging
T = Reel
B = Bulk
Series Size
0603 = 0201
1005 = 0402
1608 = 0603
2012 = 0805
3216 = 1206
3225 = 1210
4532 = 1812
5650 = 2220
Dielectric
CG
X7R
Z5U
Y5V
Voltage
0J = 6.3V
1A = 10V
1C = 16V
1E = 25V
1H = 50V
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
Tolerance
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80, -20%
Packaging
T = Reel
B = Bulk
Series Size
0402
0603
0805
1206
1210
1812
2225
Dielectric
X = BX
A,N = C0G
Y = X7R
U = Z5U
H = X8R
Capacitance
2
significant
figures
+
number
of zeros
Use "R" for
decimal point
Tolerance
B =0.1pF
C =0.25pF
D =0.5pF
F =1%
G =2%
J =5%
K =10%
M =20%
Z = +80, -20%
P = +100, 0%
Termination
X = Silver,
Ni Barrier
Tin Plated
Voltage
J = 16V
X = 25V
A = 50V
B = 100V
C = 200V
Marking
M = Marking
A = No Marking
Packaging
C = 7" Reel Paper
T = 7" Reel Plastic
P = 13" Reel Paper
R = 13" Reel Plastic
B = Bulk
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This datasheet has been downloaded from:
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